Introduction to SET320 MicroSD Express Memory Card
Silicon Power is thrilled to announce the launch of its first MicroSD Express memory card, the SET320. Available in a 256 GB capacity and capable of operating within temperatures ranging from -25°C to 70°C, this industrial-grade solution is designed to meet the growing demands of AI-driven applications.
Unparalleled Performance
Leveraging the SD Express interface, the SET320 MicroSD card delivers exceptional performance in a familiar form factor. With PCIe Gen 3×1 and NVMe interfaces, it achieves impressive read speeds of up to 820 MB/s, which is 1.4 times faster than SATA SSDs (up to 560 MB/s) and more than eight times faster than traditional UHS-I MicroSD cards (up to 100 MB/s). Additionally, it boasts write speeds of up to 640 MB/s, allowing for seamless handling of data-intensive calculations. These impressive specifications make the SET320 comparable to SSDs in terms of performance, all within the compact and versatile form factor of a MicroSD card.
Versatile Applications for Modern Needs
The SET320 is designed to excel in various applications that require quick access to large amounts of data and seamless operation in critical AI-driven environments. Moreover, with a low power consumption of 1.5 mW, it promotes uninterrupted performance and efficiency. The card is also backward-compatible with previous-generation MicroSDXC UHS-I cards, ensuring a straightforward upgrade path without sacrificing functionality. Its compact size allows users to experience SSD-like speed and efficiency in devices requiring a smaller footprint.
Commitment to Innovation
The SET320 MicroSD Express memory card demonstrates Silicon Power’s commitment to implementing cutting-edge technologies that drive industry innovation. As AI applications continue to evolve and demand greater computational efficiency, the need for faster and more reliable storage solutions becomes increasingly critical. The SET320 is a breakthrough solution designed to meet these demands, paving the way for the next generation of intelligent systems.